U.S. patent application number 10/420651 was filed with the patent office on 2004-06-03 for adjustable seat support for a wheelchair.
Invention is credited to Hale, Thomas M., Higley, Melvin Scott, Rozaieski, Michael J., Watkins, Walter A., White, Gerald.
Application Number | 20040104614 10/420651 |
Document ID | / |
Family ID | 32397042 |
Filed Date | 2004-06-03 |
United States Patent
Application |
20040104614 |
Kind Code |
A1 |
Higley, Melvin Scott ; et
al. |
June 3, 2004 |
Adjustable seat support for a wheelchair
Abstract
An adjustable seat support assembly for a wheelchair. The seat
support assembly includes a seat bottom frame and a seat back
frame. The seat bottom frame has at least two spaced apart beams.
Each beam includes at least one channel that extends along at least
a portion of the beam. Preferably the channel extends along the
entire length of the beam. A seat plate is mounted to and extends
between the beams. The seat back frame includes two vertical
supports. Each support has an upper end and a lower end. At least
one back frame cross-bar is attached to and extends between the
vertical supports. A mounting bracket is attached to the lower end
of each support and removably attached to a channel in one of the
beams. Preferably there are two or more channels formed in each
beam, one channel in the bottom and the other in the side.
Inventors: |
Higley, Melvin Scott;
(Dallas, PA) ; Watkins, Walter A.; (Courtdale,
PA) ; White, Gerald; (Hunlock Creek, PA) ;
Rozaieski, Michael J.; (Drums, PA) ; Hale, Thomas
M.; (Landisville, PA) |
Correspondence
Address: |
DRINKER BIDDLE & REATH
ONE LOGAN SQUARE
18TH AND CHERRY STREETS
PHILADELPHIA
PA
19103-6996
US
|
Family ID: |
32397042 |
Appl. No.: |
10/420651 |
Filed: |
April 21, 2003 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
60430582 |
Dec 3, 2002 |
|
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|
Current U.S.
Class: |
297/452.4 ;
297/452.18 |
Current CPC
Class: |
Y10S 297/04 20130101;
A61G 5/125 20161101; A61G 5/1067 20130101; A61G 5/107 20130101;
A61G 5/1059 20130101; A61G 5/12 20130101 |
Class at
Publication: |
297/452.4 ;
297/452.18 |
International
Class: |
A61G 005/00 |
Claims
What is claimed is:
1. A seat support assembly for a wheelchair comprising: a seat
bottom frame including at least two spaced apart beams, each beam
including at least one channel that extends along at least a
portion of the beam, and a seat plate mounted to and extending
between the beams; and a seat back frame including two vertical
supports, each support having an upper end and a lower end, at
least one back frame cross-bar attached to and extending between
the vertical supports, a mounting bracket attached to the lower end
of each support and removably attached to the channel in one of the
beams.
2. A seat support assembly according to claim 1, wherein each beam
includes at least two channels that each extend along at least a
portion of the beam, one channel formed in a bottom of the beam and
the other channel formed in a outwardly facing side of the
beam.
3. A seat support assembly according to claim 2, wherein each
channel is T-shaped and extends the entire length of the beam, the
channels being open at the ends of the beam.
4. A seat support assembly according to claim 1, wherein there are
three channels that each extend along the entire length of the
beam, one channel formed in a bottom of the beam and the other
channels formed in the inwardly and outwardly facing sides of the
beam, the channels being open at the ends of the beam.
5. A seat support assembly according to claim 4, wherein the seat
plate is mounted to the beams by threaded fasteners, the fasteners
engaging with threaded nuts located within one of the channels.
6. A seat support assembly according to claim 2, wherein the seat
plate is mounted to the beams by threaded fasteners, the fasteners
extending through a hole formed in a flange on each beam, the
fasteners engaging with threaded nuts located below the flange.
7. A seat support assembly according to claim 2, further comprising
a leg rest support having a mounting rod which is slidably disposed
within at least one channel.
8. A seat support assembly according to claim 2, further comprising
a plurality of tie-downs, each tie down being secured to at least
one channel on a beam, the tie-downs including a ring portion and a
mounting portion.
9. A seat support assembly according to claim 2, further comprising
at least two seat mounting shafts, one seat mounting shaft attached
to at least one channel in a beam, the seat mounting flange
extending downwardly from the beam and adapted to engage a mount
formed on a wheelchair frame.
10. A seat support assembly according to claim 9, wherein the
mounting shaft is attached to the bottom channel.
11. A seat support assembly according to claim 9, wherein at least
one seat mounting shaft on one beam is attached to a seat mounting
shaft on another beam through an adjustable cross-bar.
12. A seat support assembly according to claim 9, wherein there are
four seat mounting shafts, two mounting shafts being attached to
each beam, and wherein one seat mounting shaft on one beam is
attached to a seat mounting shaft on another beam through an
adjustable cross-bar.
13. A seat support assembly according to claim 12, further
comprising a spacer located below the seat plate and attached to at
least one of the adjustable cross-bars.
14. A seat support assembly according to claim 2, wherein the
mounting bracket includes a first mounting aperture and a plurality
of second mounting apertures, the first mounting aperture being
spaced apart from the plurality of second mounting apertures, and
wherein the attachment of the mounting bracket to the channel in
the beam is through the use of the first mounting aperture and at
least one of the second mounting apertures.
15. A seat support assembly according to claim 14, wherein each
mounting bracket includes a housing which receives a lower end of
one of the vertical supports.
16. A seat support assembly according to claim 2, wherein each
vertical support includes a channel formed in and extending along
at least a portion of the length of the support; and wherein the
back frame cross-bar is attached to the vertical supports by a
fastener that engages with a locking element located within the
channel.
17. A seat support assembly according to claim 16, wherein the back
frame cross-bar is adjustable so as to vary the spacing of the
vertical supports.
18. A seat support assembly for a wheelchair comprising: a seat
bottom frame including at least two spaced apart beams, each beam
including at least two channels formed in it that extend along at
least a portion of the beam, one channel being formed in a bottom
of the beam and the other being formed in a outwardly facing side
of the beam, and a seat plate mounted to and extending between the
beams, a plurality of seat mounting shafts for attaching the seat
bottom frame to a frame of the wheelchair, at least one seat
mounting shaft being adjustably attached to the bottom channel in
each beam; and a seat back frame including two vertical supports,
each support having an upper end and a lower end, at least one
adjustable back frame cross-bar attached to and extending between
the vertical supports, and a mounting bracket attached to the lower
end of each support and attached to at least one of the channels in
a beam.
19. A seat support assembly according to claim 18, wherein each
channel is T-shaped and extends the entire length of the beam, the
channels being open at the ends of the beam.
20. A seat support assembly according to claim 18, wherein there
are three channels that each extend along the entire length of the
beam, one channel formed in a bottom of the beam and the other
channels formed in the inwardly and outwardly facing sides of the
beam, the channels being open at the ends of the beam.
21. A seat support assembly according to claim 20, wherein the seat
plate is mounted to the beams by threaded fasteners, the fasteners
engaging with threaded nuts located within one of the channels.
22. A seat support assembly according to claim 18, further
comprising a leg rest support having a mounting rod which is
slidably disposed within at least one channel.
23. A seat support assembly according to claim 18, further
comprising a plurality of tie-downs, each tie down being secured to
at least one channel on a beam, the tie-downs including a ring
portion and a mounting portion.
24. A seat support assembly according to claim 18, wherein there
are four seat mounting shafts, two mounting shafts being attached
to each beam, and wherein one seat mounting shaft on one beam is
attached to a seat mounting shaft on another beam through an
adjustable cross-bar.
25. A seat support assembly according to claim 24, further
comprising a spacer located below the seat plate and attached to
the adjustable cross-bar.
26. A seat support assembly according to claim 18, wherein the
mounting bracket includes a first mounting aperture and a plurality
of second mounting apertures, the first mounting aperture being
spaced apart from the plurality of second mounting apertures, and
wherein the mounting bracket is attached to the side channel in the
beam with a first fastener extending through the first mounting
aperture and into the side channel and a second fastener extending
through one of the second mounting apertures and into the side
channel.
27. A seat support assembly according to claim 26, wherein each
mounting bracket includes a housing which receives a lower end of
one of the vertical supports.
28. A seat support assembly according to claim 27, wherein each
vertical support includes a channel formed in and extending along
at least a portion of the length of the support; and wherein the
back frame cross-bar is attached to the vertical supports by a
fastener that engages with a locking element located within the
channel.
29. A seat support assembly according to claim 9, wherein two seat
mounting shafts are attached to a seat rail, the seat rail having a
T-shaped portion that is adapted to slide within the bottom
channel.
30. A seat support assembly according to claim 29, further
comprising at least two releasable pins, each pin extending through
a side channel in one of the beams and engaging with a hole formed
in the seat rail for releasably attaching the beam to the set
rail.
31. A seat support assembly according to claim 18, wherein two seat
mounting shafts are attached to a seat rail, the seat rail having a
T-shaped portion that is adapted to slide within the bottom
channel.
32. A seat support assembly according to claim 31, further
comprising at least two releasable pins, each pin extending through
a side channel in one of the beams and engaging with a hole formed
in the seat rail for releasably attaching the beam to the set rail.
Description
RELATED APPLICATION
[0001] This application is related to and claims priority from U.S.
Provisional Application No. 60/430,582, filed Dec. 3, 2002,
entitled "Adjustable Seat Support for a Wheelchair," which is
incorporated by reference herein its entirety.
FIELD OF THE INVENTION
[0002] The present invention relates to seats for wheelchairs and,
more particularly, to an adjustable wheelchair seat support system
which provides increased versatility.
BACKGROUND OF THE INVENTION
[0003] Adjustable seats for wheelchairs have been around for quite
some time. such designs permit the seat bottom and back to be
adjusted with respect to the main frame of the chair, either
independently or as a unit.
[0004] The ability of a seat in wheelchairs to adjust is not only a
desirable feature but, in some cases, is a necessity. For example,
since the user of a wheelchair may be sitting in the wheelchair for
long periods of time, ranging anywhere from several minutes to a
full day or more, the orientation of the seat and the positioning
of the seats individual components should be configured to provide
the user with the maximum amount of comfort. In some cases medical
conditions or physical constraints actually require a specific seat
configuration. Also, differences in the height and size of the user
favor that a chair seat be adjustable to some degree.
[0005] One successful adjustable seat design has been marketed by
Pride Mobility Products, Inc. of Exeter, Pa. under the tradename
VERSA-SEAT. The seat is designed to permit separate adjustment of
the back of the seat with respect to the bottom of the seat.
Specifically, as shown in FIG. 1, the seat bottom includes a seat
frame that has two horizontal spaced-apart tubular longitudinal
beams and two lateral cross-bars. The cross-bars are adjustable
(i.e., capable of telescoping) so as to permit variation in the
spacing of the longitudinal beams. The longitudinal beams include a
plurality of mounting holes along the sides of the beams from the
front to back ends of the beams. Each end of a cross-bar is bolted
to the beams though one of the mounting holes. Using the same
mounting hole, a frame mounting bracket is bolted to the beam and
mounted to the chair frame. A seat support plate is hinged to a
third cross-bar so as to allow the seat plate to be pivoted upward
to access the area under the seat. Clips are mounted to the bottom
of the support plate and engage with the cross-bars on the seat
frame. A seat bottom cushion is attached to the seat support
plate.
[0006] The back of the seat includes a back frame with two
spaced-apart vertical tubular supports or canes and at least one
cross-bar. Like the cross-bars on the seat frame, the cross-bar on
the back frame is capable of telescoping so as to permit variation
in the spacing of the vertical supports. The ends of the cross-bar
are clamped to the vertical supports. Each support has a L-shaped
bracket welded to its lower end. The horizontal leg of the bracket
includes a plurality of mounting holes which are used to bolt the
vertical support to selected mounting holes in the beam. The
vertical support can be bolted at any longitudinal location along
the longitudinal beams. Also, by choosing different combinations of
mounting holes on the L-shaped bracket different angular
orientations of the back with respect to the seat bottom can be
obtained. A back cushion is attached to the vertical supports.
[0007] An arm rest is pivotally clamped to each vertical support. A
stop 98 may be attached to one of the support and located at a
suitable position below the arm rest so as to prevent or inhibit
downward rotation of the armrest below a desired point (e.g., below
the horizontal).
[0008] The front ends of the horizontal beams are open so as to
receive a support frame for a front mounted accessory, such as leg
rests, foot rests or foot pads. The support frame is slidably
disposed within each horizontal beams. The bolts that attach the
forward cross-bar also secure the support frame to the horizontal
beam.
[0009] Arm rests are attached to the vertical supports so as to
permit height adjustment of the arm rests with respect to the seat
bottom.
[0010] While the VERSA-SEAT system provides a vast improvement over
conventional seating systems since it permits a seat to be tailored
to a particular user, an even more improved and user friendly seat
system would be welcomed by wheelchair users.
SUMMARY OF THE INVENTION
[0011] The present invention is directed to an improved adjustable
seat support assembly for a wheelchair. The seat support assembly
includes a seat bottom frame and a seat back frame. The seat bottom
frame has at least two spaced apart beams. Each beam includes at
least one channel that extends along at least a portion of the
beam. Preferably the channel extends along the entire length of the
beam. A seat plate is mounted to and extends between the beams.
[0012] The seat back frame includes two vertical supports. Each
support has an upper end and a lower end. At least one back frame
cross-bar is attached to and extends between the vertical supports.
A mounting bracket is attached to the lower end of each support and
removably attached to a channel in one of the beams.
[0013] In one embodiment of the invention there are two channels
formed in each beam, one channel in the bottom and the other in the
side. In another embodiment there are three channels formed in each
beam, one channel formed in the bottom and the other channels
formed in the opposed sides.
[0014] Various components can be slidably mounted to the channels.
For instance, in one embodiment, seat mounting shafts, which attach
the seat support structure to the wheelchair main frame, are
attached to the beams by means of the channels. The vertical
supports are also attached to the beam using the channels, thus
permitting the back frame to be slidably translated along the
channels.
[0015] Other objects, aspects and advantages of the present
invention will become apparent to those skilled in the art upon
reading the following detailed description, when considered in
conjunction with the appended claims and the accompanying drawings
briefly described below.
BRIEF DESCRIPTION OF THE DRAWINGS
[0016] For the purpose of illustrating the invention, the drawings
show a form of the invention which is presently preferred. However,
it should be understood that this invention is not limited to the
precise arrangements and instrumentalities shown in the
drawings.
[0017] FIG. 1 is a perspective view of a conventional adjustable
seat support structure for a wheelchair.
[0018] FIG. 2 is an isometric view of an embodiment of the
adjustable seat according to the present invention.
[0019] FIG. 3 is an isometric view of the adjustable seat of FIG. 1
illustrating the bottom of the seat support in more detail.
[0020] FIG. 4 is a cross-section of a seat bottom frame according
to one embodiment of the invention.
[0021] FIG. 5 is a cross-section of a seat bottom frame according
to another embodiment of the invention.
[0022] FIG. 6 is a cross-section of a vertical support taken along
lines 6-6 in FIG. 1.
[0023] FIGS. 7A and 7B illustrate the attachment of the vertical
supports to a beam in two different angular orientations.
[0024] FIG. 8 is an embodiment of the invention illustrating the
mounting of an armrest according to one embodiment of the
invention.
[0025] FIGS. 9A and 9B illustrate an alternate mounting arrangement
for a leg rest according to one embodiment of the invention.
[0026] FIGS. 10A, 10B and 10C illustrate an alternate seat post
assembly according to one embodiment of the invention.
[0027] FIGS. 11A-11D illustrate removable locking assemblies for
use in attached the horizontal beams to seat support rails
according to one embodiment of the invention
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0028] Referring now to the drawings wherein like reference numeral
refer to like elements throughout the figures, FIG. 2 illustrates
an isometric view of one embodiment of the adjustable seat support
structure 10 according to the present invention. The seat support
structure 10 is designed to mount to a wheel chair frame (not
shown) and support seat and back cushions (not shown).
[0029] The support structure 10 includes a seat bottom frame 12 and
a seat back frame 14. The seat bottom frame 12 is best illustrated
in FIGS. 2 and 3. The frame 12 includes two longitudinal beams 16
which extend parallel to a longitudinal axis of the chair. The
longitudinal beams have at least one channel formed in and
extending along at least a portion of each beam. More preferably,
there are two channels formed in each beam. In one embodiment of
the invention shown in FIG. 4, one channel 18 is formed in the
bottom of the beam (bottom channel) and the other channel 20 is
formed in an outwardly facing lateral side of the beam (side
channel). In another embodiment of the invention shown in FIG. 5,
there are two side channels 20 and one bottom channel 18 formed in
each beam 16. The channels preferably extend along the entire
length of the beams 16. The beam 16 is preferably formed in a
single extrusion, although forming channels in separate beam
components which are assembled to create a unitary beam is also
contemplated. The beam can be made from any suitable material,
although a lightweight material, such as aluminum, plastic or
composite material, is preferable.
[0030] As will become more apparent below, the channels are
preferably T-shaped with rims or lips 22 on the side with an open
slot. The rims 22 assist in retaining a locking element within the
channel. FIGS. 4 and 5 illustrate the preferred shape of the beams.
It is contemplated that the channels 18, 20 can be connected to one
another so as to have one interior cavity with two separate outward
openings.
[0031] The beams are mounted to the wheelchair frame (not shown) in
a spaced apart relationship from one another. As shown in FIGS. 3,
two cross-bars 24 extend between the beams. The cross-bars 24 are
preferably tubular in shape and removably secured to the beams 16.
In one embodiment, the cross-bars 24 are clamped to the beams 16
with brackets 26. Each bracket has at least one and more preferably
two mounting flanges 28. Referring to FIGS. 4 and 5, a fastener 30,
such as a bolt, extends through a hole in the flange 28 and engages
with a locking element 32, such as a mounting nut or block with a
threaded insert, located within the bottom channel 18. Tightening
of the fastener 30 clamps the brackets 26 to the beam 16. Those
skilled in the art would be readily able to select a suitable
fastener and locking element. Preferably the fastener can be
tightened and loosened using conventional tools or by hand.
[0032] Since the bottom channel 18 is used for mounting the
cross-bars 24 to the beam 16, the cross-bars 24 can be attached at
any suitable longitudinal position along the beam 16. Also, since
in the illustrated embodiment brackets 26 are used to clamp the
cross-bars 24 to the beams 16, the spacing of the beams 16 can be
adjusted simply by loosening the fasteners 30 without fully
removing them, thus permitting easy adjustments "on-the-go." This
arrangement also permits the attachment of vertical mounting shafts
34 to the cross-bars 24. The mounting shafts 34 have a series of
spaced apart holes which permit the shafts 34 to be removably
secured to supports on the wheelchair frame (not shown) at
different vertical positions. The attachment of the mounting shafts
34 to the main chair frame is conventional and, thus, no further
discussion is needed. The mounting shafts 34 may be attached to the
cross-bar using any suitable means. The illustrated embodiment uses
fasteners which extend through the cross-bar 24 and thread into an
upper end of the shaft 34.
[0033] Referring to FIGS. 2, 4 and 5, a seat support plate or pan
36 is attached to the beams 16. The seat support pan is preferably
planar in shape and made from metal. The support pan 36 is attached
to the beams 16 using any suitable fastener. In the illustrated
embodiment, a bolt or screw 38 is inserted through a selected one
of a plurality of holes in the support pan 36 and a corresponding
hole in the beam 16 where the bolt/screw engages with a nut or,
more preferably, threads into holes in the beam to properly
position the pan on the beam. The spacing of the holes in the
support pan 36 defines the spacing of the beams and, thus, allows
the width of the seat bottom frame to be tailored to the particular
user. Also, the pan 36 assists in keeping the entire seat frame
square. Since the spacing and angular orientation of beams would
otherwise be infinitely adjustable, the mounting holes on the pan
limit the spacing. Slots can be used to provide limited
adjustability if desired. A seat cushion is attached to the pan
with any conventional mechanism. Preferably a VELCRO fastening
system is used. (VELCRO is a trademark of Velcro USA, Inc. for hook
and loop fasteners.)
[0034] A spacer 40 is located between the seat support pan 36 and
the cross-bar 24 for providing increased stability of the support
plate. The spacer 40 is preferably removably attached to the center
of each cross-bar 24. The spacer is preferably made from rubber or
plastic.
[0035] Although cross-bars are shown in the figures, it is also
contemplated that the seat pan 36 in combination with the beams 16
may provide sufficient rigidity that cross-bars are unnecessary. In
such cases, the vertical seat mounting shafts 34 would be mounted
independently to the beams 16 through brackets in a similar manner
as described above for the cross-bars 24.
[0036] The seat bottom may also include tie-downs 42 which may be
adjustably attached to the beams 16. These can be best seen in
FIGS. 2 and 3. The tie-downs 42 are used to strap the chair to a
fixed point on the ground. The tie-downs 42 include a handle
portion and a bracket portion 44. The bracket portion 44 is
preferably L-shaped with mounting holes located on both legs. At
least one and preferably two of the holes are located so as to
permit a fastener to engage with a nut or mounting block located in
the bottom channel. At least one hole may be located in the other
leg so as to permit a fastener to engage with a nut or mounting
block located in the side channel. Since the channels are used to
secure the tie-downs 42 to the beam 16, the tie-downs can be
mounted at any desired location along the beam 16. The tie-downs
are preferably made from a metallic material, such as aluminum or
steel.
[0037] The front and back of each channel is preferably open to
permit placement in the channels of the locking elements, such as
nuts or mounting blocks with threaded inserts. As discussed above,
the locking elements work in combination with fasteners to secure
the various components to the beam 16. It should be readily
apparent that clamps, latches or similar fastening devices can be
used in the present invention with one part of the fastening device
located within the channel and the other part of the fastening
device located so as to attach the various components to the
beams.
[0038] An end cap 46 may be removably engaged with one of more of
the channels to close off the end of the channels during use. The
cap 46 can be made of any material, although a plastic end cap is
preferable. The cap 46 can be attached to the beam with screws or,
alternately, may include tangs (not shown) that extend into the
channel and which frictionally retain the cap 46 on the beam
16.
[0039] In the illustrated embodiment, a leg rest hanger 48 is shown
mounted to the front of each beam 16. In this embodiment, end caps
46 are not needed in the front of the beams. The leg rest hangers
include a cylindrical retainer 50 and a mounting rod 52. The
mounting rod 52 preferably has a shape which can be slidably
disposed within the bottom channel 18 and/or the side channel 20.
The rod 52 preferably includes a plurality of mounting holes (not
shown) which can be engaged by fasteners for attaching the leg rest
hanger 48 to the beams 16. In the embodiment shown, the rods 52 are
tubular and include mounting nuts or threaded inserts in the rod
52. As such, the bolts which are used to secure the tie-down engage
with the mounting nuts inside the rods 52, thereby permitting one
set of fasteners to attach both components. It is also contemplated
that the rod 52 may simply be press fit into the end of the beam
16.
[0040] Although the illustrated embodiment shows leg rest hangers
50, other types of devices can be attached to the ends or sides of
the beams, such as leg pad supports, foot rest supports, accessory
cups, oxygen tank supports, etc.
[0041] The seat back frame 14 includes two spaced-apart vertical
tubular supports or canes 60. As shown in FIG. 6, the canes 60
preferably have a T-shaped slot or channel 62 formed in them for
receiving and attaching components, such as a cross-bar 64, to the
canes 60. The canes 60 may also include holes for mounting
components to the canes 60.
[0042] The cross-bar 64 is preferably adjustable so as to permit
variation in the spacing between the vertical canes 60. More
preferably, as shown, the cross-bar 64 is preferably tubular with
two L-shaped arms 66 and a tubular connector 68. The connector 68
slides in or on the adjacent ends of the arms 66 and is attached
thereto to set the length of the cross-bar 64. The opposite ends of
the L-shaped arms 66 are attached to the canes by clamps 70.
Alternately, the ends could be attached to the slots in the canes.
Grips 72 are preferably formed on the upper ends of the canes 60 to
facilitate grasping by a person to provide comfort while pushing
the wheelchair.
[0043] The back seat frame 14 is preferably attached to the beams
16 so as to permit the frame 14 to be moved longitudinally along
the beams 16. In the illustrated embodiment, an L-shaped support
bracket 74 is welded or attached to the lower end of each cane 60.
Each bracket 70 preferably includes a cylindrical housing 76 in
which the bottom of the cane 60 is located. Preferably the housing
76 includes one or more holes through which a fastener, such as a
bolt or screw, extends and engages with a corresponding hole in the
cane 60 or a mounting nut in the slot 62. Alternatively, the
housing 76 may include a T-shaped tongue which extends inward into
the housing and is positioned so as to slide within the T-shaped
slot in the cane 60. As shown in phantom, the bracket 74 may also
include a handle 75 which can be used as a tie-down or to
facilitate movement of the wheelchair.
[0044] The horizontal leg 78 of the bracket 74 includes a plurality
of mounting holes which are used to bolt the bracket 74 to the beam
16. More specifically, the bracket preferably includes a forward
hole or slot 80 and a plurality of aft holes or slots 82 arranged
so that a combination of the forward hole with each of the aft
holes orients the bracket 74 at a plurality of different angular
positions with respect to the beam 16, and thus the seat bottom
fame 12. FIGS. 7A and 7B illustrate two different mounting
positions of the bracket 74 on the beam 16. The attachment is
preferably similar to the other mounting methods described above,
and preferably includes bolts which engage with nuts or mounting
blocks located within the side channel 20.
[0045] A back cushion or support pad (not shown) is attached to the
vertical supports 60 of the seat back frame in a conventional
manner. Preferably the back support pad is wrapped around the canes
and attached with hook and loop fasteners, such as VELCRO.
Similarly, as discussed above, a seat cushion is attached to the
seat pan 36 or the beams 16 in a conventional manner.
[0046] In one embodiment of the invention, armrest supports on the
chair are also slidably mounted to the side channel 20, of the
frame. The mounting is similar to the attachment of the bracket 74
and tie-downs 42. This mounting arrangement allows each armrest to
be independently adjusted with respect to the seat bottom and the
back. Alternately, as shown in FIG. 8, the armrest supports 90 may
be mounted to the vertical canes 60 of the seat back frame 14. More
particularly, each armrest support 90 includes a support bar 92
which is mounted to a base 94. Any conventional mounting method can
be used such as fastening or welding. The base 94 is pivotally
attached to a fixture 96 so as to permit the support bar 92 to be
pivoted vertically upward about a lateral axis. As shown in FIG. 8,
the fixture 96 preferably includes two halves which clamp around
the cane 60 in a similar manner as the mounting of the clamps 70
for the back frame cross-bar 64. A stop 98 may be attached to one
of the fixture halves 96 and located at a suitable position below
the support bar 92 so as to prevent or inhibit downward rotation of
the bar 92 below a desired point (e.g., below the horizontal). A
cross-bar 100 may be attached between adjacent fixtures 96 as shown
so as to provide the back frame with additional support.
[0047] Referring now to FIGS. 9A and 9B, an alternate embodiment of
the seating system is shown. In this embodiment, the leg rest
hangers 50' include an I-shaped (or T-shaped) mounting rod 52'
which is configured to slide within the outer (or inner) side
channel 20 of the longitudinal beam 16. The rims 22' prevent the
leg rest from sliding laterally off the beam 16. As with the prior
embodiment described above, the rods 52' include mounting holes for
attached the leg rest hanger 50' to the beam 16.
[0048] By mounting the leg rest hangers in the outer (or inner)
channel in the beam 16, the system permits the lateral positioning
of the leg rest to be varied depending on the user's needs. This
permits the seating system to accommodate the growth of the user.
Also, the side channel mounting of the leg rest hanger permits
additional longitudinal mounting positions for the seat to attach
to the mounting shafts 34.
[0049] An alternate assembly for mounting the beams to the chair
frame is shown in FIGS. 10A-10C. In this embodiment, the cross-bars
have been replaced by longitudinal support rails 200. More
particularly, each mounting shaft 34 is attached to a connector
plate 202. The connector plate 202 includes a slot 204 for mounting
the connector plate to a longitudinal brace 206. The longitudinal
brace 206 is used to connect the fore and aft mounting shafts 34 to
one another. The brace 206 includes a plurality of holes to permit
the connector plates to be mounted at various axial (longitudinal)
positions. The slot 204 on the connector plate 202, in turn,
permits the mounting shaft 34 to be located at various lateral
positions relative to the brace 206.
[0050] A rail 208 is attached to or formed integral with the brace
206 so that it projects upward from the top of the brace 206. The
rail 208 is preferably T-shaped and sized to engage with the bottom
channel 18 of the beam 16 such that the beam (and, thus, the entire
seat) can be translated axially with respect to the mounting shafts
(and, thus, the wheelchair frame.) The rail can be made from any
suitable material, such as nylon, metal, plastic, or composite
material.
[0051] In order to inhibit the beam 16 from sliding off the rail
208, and to prevent the support bracket 74 (and the canes) from
sliding off the beam 16, removable fasteners 210 preferably extend
through the beam 16. More particularly, referring to FIGS. 11A-11D,
a removable pin 210 is inserted through a hole formed in the beam
16, extending through the side and bottom channels. The pin 210
engages with a hole formed in the rail 208, thus removably
attaching the rail 208 to the beam 16. The pin 210 is preferably
removable by hand to as to permit quick and easy disassembly of the
chair.
[0052] In one embodiment of the invention, the seating system
includes a fixed pin 210A on one side of the chair and a
quick-release pin 210B on the opposite side. Various types of quick
release pins can be used in the present invention. One preferred
quick-release pin is shown in FIGS. 11B and 11D, and includes a
release knob with a spring loaded locking mechanism. Pulling on the
release knob causes disengagement of the locking mechanism, thus
permitting the pin 210B to be removed. A spring 211 inside the pin
210B biases the locking mechanism (e.g., plunger) into its locked
position. Quick release pins are well known in the art and,
therefore, no further discussion is necessary.
[0053] The fixed pin 210A is illustrated in FIGS. 11A and 11C and
is a conventional push-button operated quick-release pin.
Depressing a button 214 located on a handle 216 causes the locking
balls 218 the be disengaged. This permits the balls to recess into
the shaft 220 of the pin. A suitable fixed pin 210A is available
from McMaster-Carr, New Brunswick, N.J., part number 93750A320.
[0054] The seat support assembly described above provides a novel
and innovative system which facilitates adjustment of a wheelchair
seat to permit specific tailoring of the seat to the user, thus,
increasing the user's comfort.
[0055] Accordingly, although the invention has been described and
illustrated with respect to the exemplary embodiments thereof, it
should be understood by those skilled in the art that the foregoing
and various other changes, omissions and additions may be made
therein and thereto, without parting from the spirit and scope of
the claims.
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